Method for unified communication of server, baseboard management controller, and server

ABSTRACT

A method for unified communication of a server, a baseboard management controller, and a server is presented. A baseboard management controller (BMC) receives a first packet sent by a server, and forwards the received first packet to a physical network adapter of the BMC using a preconfigured virtual network adapter, where the first packet includes first management data or service data. The first packet is sent to an external network via the physical network adapter. The virtual network adapter is further configured to send a second packet received by the BMC to a control module of the BMC, and the control module processes the second packet. In the embodiments, the first packet is sent using an out-of-band physical network adapter of the BMC, which does not need to occupy a service network adapter of the server, thereby improving utilization of the service network adapter of the server.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of International Application No.PCT/CN2015/081072, filed on Jun. 9, 2015, which claims priority toChinese Patent Application No. 201410457803.X, filed on Sep. 10, 2014,both of which are hereby incorporated by reference in their entireties.

TECHNICAL FIELD

Embodiments of the present disclosure relate to data communicationstechnologies, and in particular, to a method for unified communicationof a server, a baseboard management controller, and a server.

BACKGROUND

There are two approaches for server management, typically management byan out-of-band baseboard management controller (BMC) or management by anin-band service network adapter. When boards in a server are managed bya BMC, an out-of-band network is used. When a status of an operatingsystem (OS), a status of a Peripheral Component Interconnect express(PCIe) card, or a like situation is monitored, an in-band network needsto be relied on. As a result, both an in-band network and an out-of-bandnetwork are present for server management.

Most mainstream software in the industry supports both in-bandmanagement and out-of-band management, which imposes particularrequirements on networking of a user. A server needs to provide adedicated out-of-band management network adapter for out-of-bandmanagement and provide a service network adapter for transmission ofin-band management data. In addition, the service network adapter canalso be configured to transmit service data. Therefore, in the existingmanagement method, one set of management needs to occupy at least twonetwork adapters, resulting in a waste of service network adapterresources of a server.

SUMMARY

Embodiments of the present disclosure provide a method for unifiedcommunication of a server, a baseboard management controller, and aserver to implement transmission of in-band and out-of-band managementdata using an out-of-band network in a unified manner, which does notoccupy a service network adapter of a server, thereby improvingutilization of the service network adapter of the server.

A first aspect of the present disclosure provides a method for unifiedcommunication of a server, where the method includes receiving, by abaseboard management controller BMC, a first packet, where the firstpacket includes first management data or service data, and the firstpacket is transmitted through a first channel, where the first channelis a communications path for transmitting the service data to anexternal network using a physical network adapter of the server; andforwarding, by the BMC according to a forwarding rule, the receivedfirst packet to a physical network adapter of the BMC using apreconfigured virtual network adapter, where the first packet is sent tothe external network via the physical network adapter.

With reference to the first aspect of the present disclosure, in a firstpossible implementation manner of the first aspect of the presentdisclosure, the method further includes receiving, by the BMC, a secondpacket, where the second packet includes second management data, and thesecond packet is transmitted through a second channel, where the secondchannel is a communications path for transmitting the second managementdata to the external network using the physical network adapter of theBMC.

With reference to the first aspect of the present disclosure or thefirst possible implementation manner of the first aspect of the presentdisclosure, in a second possible implementation manner of the firstaspect of the present disclosure, the method further includesforwarding, by the BMC, the first packet or the second packet to acontrol module of the BMC using the virtual network adapter, where thecontrol module is configured to monitor a running status of the serveraccording to the first management data included in the received firstpacket or the second management data included in the received secondpacket.

With reference to any one of the first aspect of the present disclosure,the first implementation manner of the first aspect, or the secondimplementation manner of the first aspect of the present disclosure, ina third possible implementation manner of the first aspect of thepresent disclosure, the method further includes managing, by the BMC,configuration information of the virtual network adapter, where theconfiguration information includes a media access control (MAC) address.

With reference to any one of the first aspect of the present disclosure,the first implementation manner of the first aspect, or the secondimplementation manner of the first aspect of the present disclosure, ina fourth possible implementation manner of the first aspect of thepresent disclosure, the forwarding rule includes the packet is forwardedto the control module of the BMC when a destination MAC address of areceived packet is a MAC address of the BMC; and the packet is forwardedto the physical network adapter and sent to the external network via thephysical network adapter when the destination MAC address of the packetis not the MAC address of the BMC.

With reference to the fourth possible implementation manner of the firstaspect of the present disclosure, in a fifth possible implementationmanner of the first aspect of the present disclosure, forwarding, by thevirtual network adapter, the received first packet or second packetaccording to the forwarding rule includes transmitting the first packetor the second packet transparently using a bridge of the BMC; or addingan inspection point to a driver layer of the physical network adapter,and recognizing and forwarding the first packet or the second packetusing the inspection point added to the driver layer of the physicalnetwork adapter.

With reference to any one of the first aspect of the present disclosure,the first implementation manner of the first aspect, or the secondpossible implementation manner of the first aspect of the presentdisclosure, in a sixth possible implementation manner of the firstaspect of the present disclosure, the server and the BMC are connectedusing a PCIe interface to establish a data exchange path between theserver and the BMC, where the data exchange path is used to transmit thefirst packet and the second packet.

A second aspect of the present disclosure provides a baseboardmanagement controller BMC, including a transceiver, where a firstreceiving unit of the transceiver is configured to receive a firstpacket, where the first packet includes first management data or servicedata, and the first packet is transmitted through a first channel, wherethe first channel is a communications path for transmitting the servicedata to an external network using a physical network adapter of aserver; a virtual network adapter configured to forward the first packetreceived by the transceiver to a physical network adapter of the BMCaccording to a forwarding rule; and the physical network adapterconfigured to send the first packet to the external network.

With reference to the second aspect of the present disclosure, in afirst possible implementation manner of the second aspect of the presentdisclosure, the transceiver further includes a second receiving unit,where the second receiving unit is configured to receive a secondpacket, where the second packet includes second management data, and thesecond packet is transmitted through a second channel, where the secondchannel is a communications path for transmitting the second managementdata to the external network using the physical network adapter of theBMC.

With reference to the first possible implementation manner of the secondaspect of the present disclosure, in a third possible implementationmanner of the second aspect of the present disclosure, the secondmanagement data includes temperatures, voltages, and currents of amainboard, a central processing unit (CPU), and a fan that are of theserver.

With reference to the second aspect of the present disclosure or thefirst possible implementation manner of the second aspect of the presentdisclosure, in a second possible implementation manner of the secondaspect of the present disclosure, the baseboard management controllerfurther includes a control module; the virtual network adapter isfurther configured to forward the first packet or the second packet tothe control module; and the control module is configured to monitor arunning status of the server according to the first management dataincluded in the received first packet or the second management dataincluded in the received second packet.

With reference to any one of the second aspect of the presentdisclosure, or the first implementation manner of the first aspect, orthe second possible implementation manner of the second aspect of thepresent disclosure, in the third possible implementation manner of thesecond aspect of the present disclosure, the BMC further includes amanagement module configured to manage configuration information of thevirtual network adapter, where the configuration information includes amedia access control MAC address.

With reference to any one of the second aspect of the presentdisclosure, or the first implementation manner of the first aspect, orthe second possible implementation manner of the second aspect of thepresent disclosure, in a fourth possible implementation manner of thesecond aspect of the present disclosure, the forwarding rule includesthe packet is forwarded to the control module of the BMC when adestination MAC address of a received packet is a MAC address of theBMC; and the packet is forwarded to the physical network adapter andsent to the external network via the physical network adapter when thedestination MAC address of the packet is not the MAC address of the BMC.

With reference to the fourth possible implementation manner of thesecond aspect of the present disclosure, in a fifth possibleimplementation manner of the second aspect of the present disclosure,the BMC further includes a bridge; and the virtual network adapter isfurther configured to transmit the first packet or the second packettransparently using the bridge; or add an inspection point to a driverlayer of the physical network adapter, and recognize and forward thefirst packet or the second packet using the inspection point added tothe driver layer of the physical network adapter.

With reference to any one of the second aspect of the presentdisclosure, or the first implementation manner of the first aspect, orthe second possible implementation manner of the second aspect of thepresent disclosure, in a sixth possible implementation manner of thesecond aspect of the present disclosure, the server and the BMC areconnected using a PCIe interface to establish a data exchange pathbetween the server and the BMC, where the data exchange path is used totransmit the first packet and the second packet.

A third aspect of the present disclosure provides a server, where theserver includes a processor, a memory, a baseboard management controllerBMC, and a system bus, where the memory and the BMC are connected to andcomplete mutual communication with the processor using the system bus,where the memory is configured to store a computer executableinstruction; the processor is configured to execute the computerexecutable instruction to send a first packet to the BMC; the BMC isconfigured to receive the first packet, where the first packet includesfirst management data or service data, and the first packet istransmitted through a first channel, where the first channel is acommunications path for transmitting the service data to an externalnetwork using a physical network adapter of the server; and the BMC isfurther configured to forward, according to a forwarding rule, thereceived first packet to a physical network adapter of the BMC using apreconfigured virtual network adapter, where the first packet is sent tothe external network via the physical network adapter.

With reference to the third aspect of the present disclosure, in a firstpossible implementation manner of the third aspect of the presentdisclosure, the processor is further configured to execute the computerexecutable instruction to send a second packet to the BMC; andcorrespondingly, the BMC is further configured to receive the secondpacket, where the second packet includes second management data, and thesecond packet is transmitted through a second channel, where the secondchannel is a communications path for transmitting the second managementdata to the external network using the physical network adapter of theBMC.

With reference to the third aspect of the present disclosure or thefirst possible implementation manner of the third aspect of the presentdisclosure, in a second possible implementation manner of the thirdaspect of the present disclosure, the BMC is further configured toforward the first packet or the second packet to a control module of theBMC using the virtual network adapter, where the control module isconfigured to monitor a running status of the server according to thefirst management data included in the received first packet or thesecond management data included in the received second packet.

With reference to any one of the third aspect of the present disclosure,or the first implementation manner of the first aspect, or the secondpossible implementation manner of the third aspect of the presentdisclosure, in a third possible implementation manner of the thirdaspect of the present disclosure, the forwarding rule includes thepacket is forwarded to the control module of the BMC when a destinationMAC address of a received packet is a MAC address of the BMC; and thepacket is forwarded to the physical network adapter and sent to theexternal network via the physical network adapter when the destinationMAC address of the packet is not the MAC address of the BMC.

With reference to the third possible implementation manner of the thirdaspect of the present disclosure, in a fourth possible implementationmanner of the third aspect of the present disclosure, forwarding, by thevirtual network adapter, the received first packet or second packetaccording to the forwarding rule includes transmitting the first packetor the second packet transparently using a bridge of the BMC; or addingan inspection point to a driver layer of the physical network adapter,and recognizing and forwarding the first packet or the second packetusing the inspection point added to the driver layer of the physicalnetwork adapter.

According to the method for unified communication of a server, thebaseboard management controller, and the server that are provided in theembodiments of the present disclosure, a BMC receives a first packetsent by a server, and forwards the received first packet to a physicalnetwork adapter of the BMC using a preconfigured virtual networkadapter, where the first packet includes first management data orservice data. The first packet is sent to an external network via thephysical network adapter. The virtual network adapter is furtherconfigured to send a second packet received by the BMC to a controlmodule of the BMC, and the control module processes the second packet.In the prior art, the first packet is sent using an in-band network,which needs to occupy a service network adapter of a server. In theembodiments, the first packet is sent using an out-of-band physicalnetwork adapter of the BMC, which does not need to occupy a servicenetwork adapter of the server, thereby improving utilization of theservice network adapter of the server.

BRIEF DESCRIPTION OF DRAWINGS

To describe the technical solutions in the embodiments of the presentdisclosure more clearly, the following briefly describes theaccompanying drawings required for describing the embodiments. Theaccompanying drawings in the following description show merely someembodiments of the present disclosure, and persons of ordinary skills inthe art may still derive other drawings from these accompanying drawingswithout creative efforts.

FIG. 1 is a schematic structural diagram of a server according to anembodiment of the present disclosure;

FIG. 2 is a flowchart of a method for unified communication of a serveraccording to Embodiment 1 of the present disclosure;

FIG. 3A and FIG. 3B are a flowchart of forwarding a first packetaccording to Embodiment 2 of the present disclosure;

FIG. 4A and FIG. 4B are a flowchart of forwarding a response packet fora first packet according to Embodiment 3 of the present disclosure;

FIG. 5 is a schematic structural diagram of a BMC according toEmbodiment 4 of the present disclosure;

FIG. 6 is a schematic structural diagram of a BMC according toEmbodiment 5 of the present disclosure;

FIG. 7 is a schematic structural diagram of a server according toEmbodiment 6 of the present disclosure; and

FIG. 8 is a schematic structural diagram of a BMC according toEmbodiment 7 of the present disclosure.

DESCRIPTION OF EMBODIMENTS

To make the objectives, technical solutions, and advantages of theembodiments of the present disclosure clearer, the following clearlydescribes the technical solutions in the embodiments of the presentdisclosure with reference to the accompanying drawings in theembodiments of the present disclosure. The described embodiments aresome but not all of the embodiments of the present disclosure. All otherembodiments obtained by persons of ordinary skill in the art based onthe embodiments of the present disclosure without creative efforts shallfall within the protection scope of the present disclosure.

In an existing server communication method, a first packet may be anin-band packet, and a second packet may be an out-of-band packet. Thein-band packet includes in-band management data or service data. Anin-band packet carrying in-band management data and an in-band packetcarrying service data are both transmitted to an external network usinga physical network adapter of a server. When the server is configuredwith multiple physical network adapters, the service data and the firstmanagement data may be sent using a same physical network adapter of theserver or using different physical network adapters of the server. Theout-of-band packet includes out-of-band management data. Out-of-bandmanagement data carried in an out-of-band packet is transmitted througha channel different from that for transmitting service data. That is,the out-of-band management data is sent to an external network using aphysical network adapter of a BMC, and the service data is sent to anexternal network using a physical network adapter of a server. In theembodiments of the present disclosure, a first packet includes firstmanagement data and service data, and a second packet includes secondmanagement data. In the embodiments of the present disclosure, the firstmanagement data is equivalent to the in-band management data, and thesecond management data is equivalent to the out-of-band management data.Therefore, as can be known, the first packet is sent using an in-bandnetwork, and the second packet is sent using an out-of-band network. Ina method for unified communication of a server according to theembodiments of the present disclosure, both the first packet and thesecond packet can be sent using an out-of-band network. The followingdescribes the method for unified communication of a server of thepresent disclosure in detail using specific embodiments.

FIG. 1 is a schematic structural diagram of a server according to anembodiment of the present disclosure. As shown in FIG. 1, the serverincludes a virtual network adapter 11, a virtual network adapter driver12, and a BMC 13. The BMC 13 is configured on a baseboard of the server.The baseboard of the server is connected to the BMC 13 using a standardPCIe interface. The BMC 13 monitors a running status of the server usinga sensor, and manages hardware and clears faults according to obtainedstatus information. In addition, the BMC 13 communicates with a systemadministrator using an independent connection line. The BMC is a part ofan Intelligent Platform Management Interface (IPMI) and is generallyincluded in a main circuit board of a monitored device. In thisembodiment, the BMC 13 is configured on the baseboard of the server.Certainly, the BMC 13 may alternatively be used as an independent deviceto connect to the baseboard of the server.

In this embodiment, the BMC 13 includes a virtual transceiver 131, avirtual network adapter driver 132, a virtual network adapter 133, abridge 134, a physical network adapter 135, a management module 136, anda control module 137.

The virtual network adapter 11 is configured to receive first managementdata or service data sent by an upper-layer application of an OS,encapsulate the first management data or the service data into a firstpacket, and send the first packet to the BMC 13. The virtual networkadapter 11 is obtained by the virtual network adapter driver 12 by meansof software simulation. The virtual network adapter 11 has functions ofa real physical network adapter and may be directly used by allupper-layer application software of the server. Therefore, in the methodin this embodiment of the present disclosure, more management functionsare provided. However, a BMC driver on a server side supports only a fewmanagement functions that are dependent on application softwaredeveloped by a specific vendor, and the BMC driver has an interface withonly the application software provided by the specific vendor.Therefore, the BMC driver can obtain only status information of theapplication software provided by the specific vendor as first managementdata, but does not support management of third-party applicationsoftware, and therefore is not extensive. In contrast, in the method inthis embodiment of the present disclosure, the virtual network adapter11 has all functions of a real physical network adapter. With thiscommonality, the virtual network adapter 11 can support management ofthird-party application software.

As a real physical network adapter does, the virtual network adapter 11is also configured with a MAC address, an Internet Protocol (IP)address, a virtual local area network (VLAN), and the like. The virtualnetwork adapter 11 may be configured and managed by the managementmodule 136 of the BMC 13.

The virtual network adapter driver 12 is configured to simulate thevirtual network adapter 11 for data exchange with the virtualtransceiver 131. As viewed from an OS side, a transceiver interface of astandard network adapter is provided, and this transceiver interface isthe virtual network adapter 11.

It can be understood by persons skilled in the art that a physicalnetwork adapter cannot work alone but can work normally only when anetwork adapter driver is configured to drive the physical networkadapter. In this embodiment, the virtual network adapter 11 may serve asa physical network adapter, and the virtual network adapter 11 has allfunctions of a physical network adapter. Therefore, the virtual networkadapter 11 also requires a driver, and the virtual network adapterdriver 12 is the driver of the virtual network adapter 11. To clearlydescribe a relationship between the virtual network adapter 11 and thevirtual network adapter driver 12, the two modules are separately drawnin FIG. 1. In other drawings of the embodiments of the presentdisclosure, the virtual network adapter 11 and the virtual networkadapter driver 12 may serve as one functional module. That is, only thevirtual network adapter 11 or the virtual network adapter driver 12 isdrawn.

The virtual network adapter 11 sends the first packet to the BMC, suchthat the BMC sends the first packet to an external network using thevirtual network adapter 133. First management data carried in the firstpacket is obtained by monitoring software of the server. The firstmanagement data mainly includes a status parameter of an OS, a statusparameter of service software, or a status parameter of a hardwarecomponent. Herein, the service software includes application softwareembedded into the server and third-party application software. Thehardware component includes a CPU, a memory, a hard disk, a compact disc(CD) drive, a network adapter, and a graphics card that are of theserver. A status parameter of the CPU is a utilization rate, a clockspeed, and the like of the CPU.

The virtual transceiver 131, on one hand, implements data exchange withthe virtual network adapter 11 to receive the first packet sent by thevirtual network adapter 11. On the other hand, the virtual transceiver131 interconnects with the virtual network adapter 133 of the BMC 13 tosend the received first packet to the virtual network adapter 133.

The virtual network adapter 133 also requires a driver, and the virtualnetwork adapter driver 132 is the driver of the virtual network adapter133. The virtual network adapter driver 132 provides a transceiverinterface of a standard network adapter. This transceiver interface isthe virtual network adapter 133. The virtual network adapter 133 isconfigured to interconnect with the virtual transceiver 131 to forwardthe first packet received by the virtual transceiver 131. To clearlydescribe a relationship between the virtual network adapter 133 and thevirtual network adapter driver 132, the two modules are separately drawnin FIG. 1. In other drawings of the embodiments of the presentdisclosure, the virtual network adapter 133 and the virtual networkadapter driver 132 may serve as one functional module. That is, only thevirtual network adapter 133 or the virtual network adapter driver 132 isdrawn.

The virtual network adapter 133 is also configured with a MAC address,an IP address, a VLAN, and the like. The virtual network adapter 133 isconfigured to send the received first packet to the bridge 134 or send areceived second packet to the bridge 134. The second packet includessecond management data. The second management data includestemperatures, voltages, currents, and like information of devices suchas the baseboard, the CPU, and a fan of the server. Generally, the firstmanagement data can be obtained only when the server is powered on andrunning, while the second management data can be obtained even when theserver is powered off.

The virtual network adapter 133 is further configured to send the firstpacket or the second packet to the control module 137. The controlmodule 137 is configured to monitor a running status of the serveraccording to the management data carried in the received first packet orsecond packet.

The bridge 134 is configured to transparently transmit the first packetor the second packet sent by the virtual network adapter 133 to send thefirst packet or the second packet to the physical network adapter 135,or the bridge 134 transparently transmits the first packet or the secondpacket sent by the virtual network adapter 133 to the control module137.

The physical network adapter 135 is configured to send the receivedfirst packet or second packet to the external network.

The first packet is sent using an in-band network and the second packetis sent using an out-of-band network. The first packet may be in-banddata, and the second packet may be out-of-band data. In this embodimentof the present disclosure, both the first packet and the second packetmay be sent to the external network using the physical network adapter135. In this way, all in-band data and out-of-band data are sent using aunified out-of-band network adapter, while no service network adapter ofthe server is occupied. Therefore, utilization of the service networkadapter of the server is improved.

The management module 136 is configured to manage the virtual networkadapter 133 and the virtual transceiver 131, for example, to configureand manage MAC addresses, IP addresses, and VLANs of the virtual networkadapter 133 and the virtual transceiver 131. The virtual network adapter133 and the virtual transceiver 131 are managed by the BMC rather thanrequiring management by the server. Therefore, management becomes moreconvenient. The management module 136 is further configured to configureand manage the virtual network adapter 11, thereby implementing unifiedout-of-band management. The management module 136 is configured mainlyto configure and manage the MAC address, the IP address, and the VLAN ofthe virtual network adapter 11. A dedicated PCIe management path may beconfigured between the server and the BMC for sending management data ofthe virtual network adapter 11. Certainly, a data exchange path betweenthe BMC and the server may alternatively be used to send management dataof the virtual network adapter 11.

FIG. 2 is a flowchart of a method for unified communication of a serveraccording to Embodiment 1 of the present disclosure. The method forunified communication of a server according to this embodiment isdescribed in detail with reference to FIG. 1 and FIG. 2. As shown inFIG. 2, the method in this embodiment includes the following steps.

Step 101: A BMC receives a first packet, where the first packet includesfirst management data or service data, and the first packet istransmitted through a first channel, where the first channel is acommunications path for transmitting the service data to an externalnetwork using a physical network adapter of the server.

The server is connected to the BMC using a PCIe interface to establish adata exchange path between the server and the BMC, where the dataexchange path is used to transmit the first packet. The server sends thefirst packet to the BMC using the data exchange path. The first packetis sent by a virtual network adapter 11 of the server. The BMC receivesthe first packet, and the first packet includes the first managementdata or the service data. The first packet is received by a virtualtransceiver 131 of the BMC. The virtual transceiver 131 may receive thefirst packet using a PCIe direct memory access (DMA) method.

The first packet may be an in-band packet sent to an external networkusing an in-band network of the server. The first packet is transmittedthrough a first channel. The first channel is a communications path fortransmitting the service data to the external network using a physicalnetwork adapter of the server. When the server is configured withmultiple physical network adapters, the service data and the firstmanagement data may be sent using a same physical network adapter of theserver or using different physical network adapters of the server.

In this embodiment, in order to enable in-band data and out-of-band datato be sent using a unified out-of-band interface, the server needs tosend the first packet to the BMC, and then the first packet is sent tothe external network using a physical network adapter 135 of the BMC.That is, both the first management data and the service data may betransmitted using the same physical network adapter 135.

Step 102: The BMC forwards, according to a forwarding rule, the receivedfirst packet to a physical network adapter of the BMC using apreconfigured virtual network adapter, where the first packet is sent tothe external network via the physical network adapter.

After receiving the first packet, the virtual transceiver 131 sends thefirst packet to a virtual network adapter 133 of the BMC. The virtualnetwork adapter 133 sends the first packet to the physical networkadapter 135 of the BMC according to the forwarding rule. The firstpacket is sent to the external network via the physical network adapter135.

The forwarding rule for the virtual network adapter 133 includes thepacket is forwarded to a control module 137 of the BMC when adestination MAC address of a received packet is a MAC address of theBMC, where the control module 137 monitors a running status of theserver according to the first management data included in the receivedfirst packet; and the packet is forwarded to the physical networkadapter 135 and sent to the external network via the physical networkadapter 135 when the destination MAC address of the packet is not theMAC address of the BMC.

The first packet also includes address information, such as a source IPaddress, a source MAC address, a destination IP address, a destinationMAC address and the like. The source IP address of the first packet isan IP address of the virtual network adapter 11, and the source MACaddress of the first packet is a MAC address of the virtual networkadapter 11. When the first packet is to be sent to the control module137 for processing, the destination MAC address of the first packet isthe MAC address of the BMC. When the first packet is to be sent to amanagement device on the external network, the destination IP address ofthe first packet is an IP address of the management device, and thedestination MAC address of the first packet is a MAC address of themanagement device.

After receiving the first packet, the virtual network adapter 133determines whether the destination MAC address of the first packet isthe MAC address of the BMC. The first packet is sent to the controlmodule 137 when the destination MAC address of the first packet is theMAC address of the BMC. The first packet is sent to the physical networkadapter 135 when the destination MAC address of the first packet is notthe MAC address of the BMC.

In this embodiment, that the virtual network adapter 133 forwards thereceived first packet according to the forwarding rule is transmittingthe first packet transparently using a bridge 134 of the BMC, where thefirst packet is sent to the physical network adapter 135 via the bridge134; or adding an inspection point to a driver layer of the physicalnetwork adapter 135, and recognizing and forwarding the first packetusing the inspection point added to the driver layer of the physicalnetwork adapter 135.

The BMC is further configured to receive a second packet, where thesecond packet includes second management data, and the second managementdata and the service data are transmitted through different logicalchannels. The BMC receives the second packet using the data exchangepath established between the server and the BMC. The second packet isstill sent using an out-of-band network. After receiving the secondpacket, the BMC forwards the second packet to the physical networkadapter 135 using the virtual network adapter 133, and then the secondpacket is sent to the external network via the physical network adapter135. The virtual network adapter 133 still forwards the second packetusing the foregoing forwarding rule, and details are not describedherein again. Alternatively, the virtual network adapter 133 sends thesecond packet to the control module 137 of the BMC, where the controlmodule 137 monitors the running status of the server according to thesecond management data included in the received second packet.

It should be noted that, in this embodiment, if the server needs to sendthe first packet to the BMC and then to the external network using thevirtual network adapter 133 of the BMC, routing information of the firstpacket needs to be preconfigured and stored in the server for the serverto forward the first packet according to the routing information. Inthis embodiment, the first packet needs to be sent to the externalnetwork using the physical network adapter 135 of the BMC. Therefore,the server needs to be configured with a forwarding network segment ofthe physical network adapter 135, and the IP address of the first packetbelongs to the forwarding network segment of the physical networkadapter 135. When receiving the first packet sent by upper-layerapplication software, the server determines, according to the routinginformation, that the first packet should be sent using the physicalnetwork adapter 135. In this case, the server sends the first packet tothe BMC, and then the first packet is sent to the physical networkadapter 135 using the virtual network adapter 133 of the BMC.

In this embodiment, a BMC receives a first packet sent by a server, andforwards the received first packet to a physical network adapter of theBMC using a preconfigured virtual network adapter, where the firstpacket includes first management data or service data. The first packetis sent to an external network via the physical network adapter. Thevirtual network adapter is further configured to send a received secondpacket to a control module of the BMC, and the control module processesthe second packet. The first packet is sent using an in-band network,which needs to occupy a service network adapter of a server. In thisembodiment, both the first packet and the second packet are sent usingan out-of-band physical network adapter of the BMC, which does not needto occupy a service network adapter of the server, thereby improvingutilization of the service network adapter of the server.

In the foregoing Embodiment 1, both the first management data and theservice data are sent to the external network by the physical networkadapter of the BMC. A benefit is that all data is sent using a unifiedout-of-band physical network adapter. Generally, it is desired toseparate service data and management data, that is, service data andmanagement data are transmitted through different channels. Optionally,in the solution of this embodiment of the present disclosure, theservice data may be sent using a service network adapter of the server,and only the first management data is sent using the physical networkadapter of the BMC. That is, all management data is sent using anout-of-band network, and all service data is sent using an in-bandnetwork. In this way, service data or management data can be separated,thereby ensuring reliability for service data transmission.

Based on the foregoing Embodiment 1, a procedure for forwarding a firstpacket is described in detail in Embodiment 2 of the present disclosure.In Embodiment 2 of the present disclosure, the server exchanges datawith the BMC using transmit and receive queues. FIG. 3A and FIG. 3B area flowchart of forwarding a first packet according to Embodiment 2 ofthe present disclosure. Referring to FIG. 1, FIG. 3A, and FIG. 3B, aprocedure for forwarding a first packet in this embodiment includes thefollowing steps.

Step 201: A virtual network adapter driver 12 starts packet sending.

When there is a first packet to be sent on the server, an OS of theserver compresses the to-be-sent first packet to a protocol stack. Whendetecting the to-be-sent data in the protocol stack, the virtual networkadapter driver 12 starts packet sending.

Step 202: The virtual network adapter driver 12 determines whether thereis idle DMA space in a transmit queue of the virtual network adapterdriver 12.

Between the server and the BMC, data is transmitted and received in aPCIe DMA manner. If there is idle DMA space in the transmit queue of thevirtual network adapter driver 12, step 203 is performed. If there is noidle DMA space in the transmit queue of the virtual network adapterdriver 12, step 204 is performed.

Step 203: The virtual network adapter driver 12 places a physicaladdress of a to-be-sent first packet in the transmit queue of thevirtual network adapter driver 12.

The server allocates a Socket Buffer (SKB) buffer in a memory and storesthe to-be-sent first packet in the SKB buffer. The physical address ofthe first packet is received and placed in the protocol stack. Theprotocol stack then places the physical address of the first packet inthe transmit queue of the virtual network adapter driver 12. Herein, thephysical address of the first packet is a memory address of the firstpacket in the SKB buffer of the server.

Step 205 is performed after step 203.

Step 204: The virtual network adapter driver 12 presses the first packetback to the protocol stack.

Step 205: The virtual network adapter driver 12 instructs a virtualtransceiver 131 of the BMC to start a DMA operation.

Step 206: The virtual transceiver 131 determines whether there is idleDMA space in a receive queue of the virtual transceiver 131.

If there is idle DMA space in the receive queue of the virtualtransceiver 131, step 207 is performed. If there is no idle DMA space inthe receive queue of the virtual transceiver 131, step 208 is performed.

Step 207: The virtual transceiver 131 starts a DMA operation, to readthe first packet from an SKB buffer of the server and write the firstpacket into an SKB buffer of the BMC, and after the DMA operation iscompleted, instructs the virtual network adapter driver 12 that datareception is completed.

After receiving the instruction from the virtual network adapter driver12, the virtual transceiver 131 allocates an SKB buffer in a localmemory of the BMC, and after the SKB buffer is successfully allocated,triggers the DMA operation to read the first packet and write the firstpacket into the SKB buffer of the BMC according to the physical addressof the first packet. After the DMA operation is completed, the virtualtransceiver 131 instructs the virtual network adapter driver 12, bymeans of an interrupt, that data has been successfully received. Thevirtual network adapter driver 12 releases the SKB buffer in the memoryof the server, and the packet sending on the server side is completed.Step 209 is performed after step 207.

Step 208: The virtual transceiver 131 waits in a timed manner.

When there is no idle DMA space in the receive queue of the virtualtransceiver 131, the virtual transceiver 131 needs to wait. When awaiting time expires, the virtual transceiver 131 goes back to performstep 206, continuing to determine whether there is idle DMA space in thereceive queue of the virtual transceiver 131.

Step 209: The virtual transceiver 131 invokes a virtual network adapter133 of the BMC to send the physical address of the first packet to atransmit queue of the virtual network adapter 133.

In this step and all subsequent steps of this embodiment, the involvedphysical address of the first packet is an address of the first packetin the SKB buffer of the server.

Step 210: A bridge 134 of the BMC sends a callback function to thevirtual network adapter 133 to obtain the physical address of the firstpacket.

By sending the callback function to the virtual network adapter 133, thebridge 134 adds the physical address of the first packet to a transmitqueue of the bridge 134. The callback function may be a hook function.

Step 211: The bridge 134 determines, according to a forwarding rule,whether the first packet is to be sent to a physical network adapter 135of the BMC.

The bridge 134 determines whether a destination MAC address of the firstpacket is a MAC address of the BMC. If the destination MAC address ofthe first packet is not the MAC address of the BMC, step 212 isperformed. If the destination MAC address of the first packet is the MACaddress of the BMC, step 213 is performed.

Step 212: The bridge 134 invokes a transmitting interface of thephysical network adapter 135 to send the physical address of the firstpacket to the physical network adapter 135 of the BMC.

Step 214 is performed after step 212.

Step 213: The bridge 134 sends the first packet to a control module 137of the BMC.

Step 214: The physical network adapter 135 sends the first packet to anexternal network.

The physical network adapter 135 reads the first packet from the SKBbuffer of the BMC according to the physical address of the first packet,and sends the first packet to the external network.

After the BMC sends the first packet to a management device on theexternal network, the management device returns a response packet forthe first packet to the server. A procedure for forwarding the responsepacket for the first packet is further described in Embodiment 3 of thepresent disclosure. FIG. 4A and FIG. 4B are a flowchart of forwarding aresponse packet for a first packet according to Embodiment 3 of thepresent disclosure. Referring to FIG. 1, FIG. 4A, and FIG. 4B, aprocedure for forwarding a response packet for a first packet accordingto this embodiment includes the following steps.

Step 301: A physical network adapter 135 receives a response packet fora first packet.

The response packet for the first packet that is received by thephysical network adapter 135 is placed in an SKB buffer pre-allocated ina memory of a BMC.

Step 302: The physical network adapter 135 places a physical address ofthe response packet for the first packet in a receive queue of thephysical network adapter 135.

The physical address of the response packet for the first packet is amemory address of the first packet in an SKB buffer of the BMC.

Step 303: The physical network adapter 135 invokes a callback functionof a bridge 134 of the BMC to send the physical address of the responsepacket for the first packet to a receive queue of the bridge 134.

Step 304: The bridge 134 determines whether a destination MAC address ofthe response packet for the first packet is a MAC address of the BMC.

If the destination MAC address of the response packet for the firstpacket is not the MAC address of the BMC, step 305 is performed. If thedestination MAC address of the response packet for the first packet isthe MAC address of the BMC, step 306 is performed.

Step 305: The bridge 134 invokes a receive function of a virtual networkadapter 133 of the BMC to send the physical address of the responsepacket for the first packet to a receive queue of the virtual networkadapter 133.

Step 307 is performed after step 305.

Step 306: The bridge 134 sends the response packet for the first packetto a control module 137 of the BMC.

Step 307: The virtual network adapter 133 sends the physical address ofthe response packet for the first packet to a receive queue of a virtualtransceiver 131 of the BMC.

Step 308: The virtual transceiver 131 determines whether there is idleDMA space in a receive queue of a virtual network adapter driver 12 of aserver.

If there is idle DMA space in the receive queue of the virtual networkadapter driver 12, step 309 is performed. If there is no idle DMA spacein the receive queue of the virtual network adapter driver 12, step 310is performed.

Step 309: The virtual transceiver 131 starts a DMA operation and sendsthe response packet for the first packet to the receive queue of thevirtual network adapter driver 12.

Step 311 is performed after step 309.

Step 310: The virtual transceiver 131 discards the response packet forthe first packet.

Step 311: The virtual transceiver 131 instructs the virtual networkadapter driver 12 that data has been successfully sent.

After receiving the instruction from the virtual transceiver 131, thevirtual network adapter driver 12 transfers the response packet for thefirst packet to a protocol stack. The reception on the OS side iscompleted.

Step 312: The virtual transceiver 131 releases the SKB buffer of theBMC.

FIG. 5 is a schematic structural diagram of a BMC according toEmbodiment 4 of the present disclosure. As shown in FIG. 5, the BMCaccording to this embodiment includes a transceiver 21, a virtualnetwork adapter 22, and a physical network adapter 23.

Herein, the transceiver 21 includes a first receiving unit 211. Thefirst receiving unit 211 is configured to receive a first packet, wherethe first packet includes first management data or service data, and thefirst packet is transmitted through a first channel. The first channelis a communications path for transmitting the service data to anexternal network using a physical network adapter of the server.

The virtual network adapter 22 is configured to forward the first packetreceived by the virtual transceiver to a physical network adapter of theBMC according to a forwarding rule.

The physical network adapter 23 is configured to send the first packetto the external network.

Further, the transceiver 21 further includes a second receiving unit212. The second receiving unit 212 is configured to receive a secondpacket, where the second packet includes second management data, and thesecond packet is transmitted through a second channel. The secondchannel is a communications path for transmitting the second managementdata to the external network using the physical network adapter of theBMC.

In this embodiment, the first management data includes a statusparameter of an operating system OS of the server, a status parameter ofservice software of the server, or a status parameter of a hardwarecomponent of the server. The service software includes applicationsoftware embedded into the server and third-party application software,and the hardware component includes a CPU, a memory, a hard disk, acompact disc drive, a network adapter, and a graphics card that are ofthe server. The second management data includes temperatures, voltages,and currents of a mainboard, the CPU, and a fan that are of the server.

In this embodiment, the server and the BMC are connected using a PCIeinterface to establish a data exchange path between the server and theBMC. The data exchange path is used to transmit the first packet and thesecond packet.

The forwarding rule includes the packet is forwarded to a control moduleof the BMC when a destination MAC address of a received packet is a MACaddress of the BMC; and the packet is forwarded to the physical networkadapter 23 and sent to the external network via the physical networkadapter 23 when the destination MAC address of the packet is not the MACaddress of the BMC.

The BMC in this embodiment may be configured to execute the technicalsolution in Embodiment 1. Specific implementation manners and technicaleffects thereof are similar, and details are not described herein again.

FIG. 6 is a schematic structural diagram of a BMC according toEmbodiment 5 of the present disclosure. Based on the BMC shown in FIG.5, the BMC in this embodiment further includes a bridge 24, a controlmodule 25, and a management module 26.

The control module 25 is configured to monitor a running status of theserver according to the first management data included in the receivedfirst packet or the second management data included in the receivedsecond packet. Correspondingly, the virtual network adapter 22 isfurther configured to forward the first packet or the second packet tothe control module 25.

The virtual network adapter 22 is further configured to transmit thefirst packet or the second packet transparently using the bridge 24; oradd an inspection point to a driver layer of the physical networkadapter 23, and recognize and forward the first packet or the secondpacket using the inspection point added to the driver layer of thephysical network adapter 23.

The management module 26 is configured to manage configurationinformation of the virtual network adapter 22, where the configurationinformation includes a media access control MAC address.

The BMC in this embodiment may be configured to execute the technicalsolutions in Embodiments 1 to 3. Implementation principles and technicaleffects thereof are similar, and details are not described herein again.

FIG. 7 is a schematic structural diagram of a server according toEmbodiment 6 of the present disclosure. As shown in FIG. 7, the server300 in this embodiment includes a processor 31, a memory 32, a BMC 33,and a system bus 34. The memory 32 and the BMC 33 are connected to andcommunicate with the processor 31 using the system bus 34. The systembus 34 may be a PCIe bus. The server is connected to the BMC using thePCIe bus to establish a data exchange path between the server and theBMC, and data is transmitted using the data exchange path. The memory 32stores a computer executable instruction 321. The processor 31 isconfigured to execute the computer executable instruction 321 to obtaina first packet and send the first packet to the BMC 33. The BMC isfurther configured to execute the following operations: receiving afirst packet, where the first packet includes first management data orservice data, and the first packet is transmitted through a firstchannel, where the first channel is a communications path fortransmitting service data to an external network using a physicalnetwork adapter of the server 300; and forwarding, according to aforwarding rule, the received first packet to a physical network adapterof the BMC 33 using a preconfigured virtual network adapter, where thefirst packet is sent to the external network via the physical networkadapter.

The BMC 33 is further configured to receive a second packet, where thesecond packet includes second management data, and the second packet istransmitted through a second channel. The second channel is acommunications path for transmitting the second management data to theexternal network using the physical network adapter of the BMC 33.

The first management data includes a status parameter of an operatingsystem OS of the server, a status parameter of service software of theserver, or a status parameter of a hardware component of the server. Theservice software includes application software embedded into the serverand third-party application software, and the hardware componentincludes a CPU, a memory, a hard disk, a compact disc drive, a networkadapter, and a graphics card that are of the server. The secondmanagement data includes temperatures, voltages, and currents of amainboard, the CPU, and a fan that are of the server.

Optionally, the BMC 33 is further configured to forward the first packetor the second packet to a control module of the BMC 33 using the virtualnetwork adapter. The control module is configured to monitor a runningstatus of the server according to the first management data included inthe received first packet or the second management data included in thereceived second packet.

In this embodiment, the forwarding rule includes the packet is forwardedto the control module of the BMC 33 when a destination MAC address of areceived packet is a MAC address of the BMC 33; and the packet isforwarded to the physical network adapter and sent to the externalnetwork via the physical network adapter when the destination MACaddress of the packet is not the MAC address of the BMC 33.

That the virtual network adapter forwards the received first packet orsecond packet according to the forwarding rule is transmitting the firstpacket transparently using a bridge of the BMC 33; or adding aninspection point to a driver layer of the physical network adapter, andrecognizing and forwarding the first packet or the second packet usingthe inspection point added to the driver layer of the physical networkadapter.

The BMC 33 is further configured to manage configuration information ofthe virtual network adapter, where the configuration informationincludes a media access control MAC address.

The server in this embodiment may be configured to execute the technicalsolutions provided in Embodiments 1 to 3. Specific implementationmanners and technical effects thereof are similar, and details are notdescribed herein again.

FIG. 8 is a schematic structural diagram of a BMC according toEmbodiment 7 of the present disclosure. As shown in FIG. 8, the BMC 400in this embodiment includes a processor 41, a memory 42, acommunications interface 43, and a system bus 44. The memory 42 and thecommunications interface 43 are connected to and communicate with theprocessor 41 using the system bus 44. The communications interface 43 isconfigured to communicate with another network device. The memory 42stores a computer executable instruction 421. The processor 41 isconfigured to execute the computer executable instruction 421 to enablethe BMC 400 to execute the following operations: receiving a firstpacket, where the first packet includes first management data or servicedata, and the first packet is transmitted through a first channel, wherethe first channel is a communications path for transmitting service datato an external network using a physical network adapter of a server; andforwarding, according to a forwarding rule, the received first packet toa physical network adapter of the BMC using a preconfigured virtualnetwork adapter, where the first packet is sent to the external networkvia the physical network adapter.

Further, the BMC 400 is further configured to receive a second packet,where the second packet includes second management data, and the secondpacket is transmitted through a second channel, where the second channelis a communications path for transmitting the second management data tothe external network using the physical network adapter of the BMC 400.

The first management data includes a status parameter of an operatingsystem OS of the server, a status parameter of service software of theserver, or a status parameter of a hardware component of the server. Theservice software includes application software embedded into the serverand third-party application software, and the hardware componentincludes a CPU, a memory, a hard disk, a compact disc drive, a networkadapter, and a graphics card that are of the server. The secondmanagement data includes temperatures, voltages, and currents of amainboard, the CPU, and a fan that are of the server.

Optionally, the BMC 400 is further configured to forward the firstpacket or the second packet to a control module of the BMC 400 using thevirtual network adapter. The control module is configured to monitor arunning status of the server according to the first management dataincluded in the received first packet or the second management dataincluded in the received second packet.

The forwarding rule includes the packet is forwarded to the controlmodule of the BMC 400 when a destination MAC address of a receivedpacket is a MAC address of the BMC 400; and the packet is forwarded tothe physical network adapter and sent to the external network via thephysical network adapter when the destination MAC address of the packetis not the MAC address of the BMC 400.

That the virtual network adapter forwards the received first packet orsecond packet according to the forwarding rule is transmitting the firstpacket or the second packet transparently using a bridge of the BMC 400;or adding an inspection point to a driver layer of the physical networkadapter, and recognizing and forwarding the first packet or the secondpacket using the inspection point added to the driver layer of thephysical network adapter.

Optionally, the server and the BMC 400 are connected using a PCIeinterface to establish a data exchange path between the server and theBMC 400. The data exchange path is used to transmit the first packet andthe second packet.

Optionally, the BMC 400 is further configured to manage configurationinformation of the virtual network adapter, where the configurationinformation includes a media access control MAC address.

The server in this embodiment may be configured to execute the technicalsolutions provided in Embodiments 1 to 3. Specific implementationmanners and technical effects thereof are similar, and details are notdescribed herein again.

Persons of ordinary skill in the art may understand that all or some ofthe steps of the method embodiments may be implemented by a programinstructing relevant hardware. The program may be stored in acomputer-readable storage medium. When the program runs, the steps ofthe method embodiments are performed. The foregoing storage mediumincludes any medium that can store program code, such as a read-onlymemory (ROM), a random access memory (RAM), a magnetic disk, or anoptical disc.

Finally, it should be noted that the foregoing embodiments are merelyintended for describing the technical solutions of the presentdisclosure, but not for limiting the present disclosure. Although thepresent disclosure is described in detail with reference to theforegoing embodiments, persons of ordinary skill in the art shouldunderstand that they may still make modifications to the technicalsolutions described in the foregoing embodiments or make equivalentreplacements to some or all technical features thereof, withoutdeparting from the scope of the technical solutions of the embodimentsof the present disclosure.

What is claimed is:
 1. A method for unified communication of a server,comprising: receiving, by a baseboard management controller (BMC), afirst packet, wherein the first packet is an in-band packet whichcomprises first management data or service data, wherein the firstpacket is for transmission through a first channel, and wherein thefirst channel is a communications path for transmitting the service datato an external network using a physical network adapter of the server;forwarding, by the BMC according to a forwarding rule, the receivedfirst packet to a physical network adapter of the BMC using apreconfigured virtual network adapter, wherein the first packet is sentto the external network via the physical network adapter of the BMC; andforwarding the received first packet to a control module of the BMCusing the preconfigured virtual network adapter, wherein the controlmodule is configured to monitor a running status of the server accordingto the first management data comprised in the received first packet,wherein the forwarding rule comprises: forwarding a packet to thecontrol module of the BMC when a destination media access control (MAC)address of the received packet is a MAC address of the BMC; andforwarding the packet to the physical network adapter of the BMC using apreconfigured virtual network adapter and sending to the externalnetwork via the physical network adapter of the BMC when the destinationMAC address of the received packet is not the MAC address of the BMC. 2.The method according to claim 1, further comprising receiving, by theBMC, a second packet, wherein the second packet is an out-of-band packetwhich comprises second management data, wherein the second packet istransmitted through a second channel, and wherein the second channel isa communications path for transmitting the second management data to theexternal network using the physical network adapter of the BMC.
 3. Themethod according to claim 2, further comprising forwarding, by the BMC,the second packet to the control module of the BMC using thepreconfigured virtual network adapter, wherein the control module isconfigured to monitor a running status of the server according to thesecond management data comprised in the received second packet.
 4. Themethod according to claim 2, wherein the server and the BMC areconnected using a Peripheral Component Interconnect express (PCIe)interface to establish a data exchange path between the server and theBMC, and wherein the data exchange path is used to transmit the firstpacket and the second packet.
 5. The method according to claim 1,further comprising managing, by the BMC, configuration information ofthe preconfigured virtual network adapter, wherein the configurationinformation comprises a MAC address.
 6. The method according to claim 1,wherein forwarding, by the preconfigured virtual network adapter, thereceived first packet or second packet comprises transmitting, by thepreconfigured virtual network adapter, the first packet or the secondpacket transparently using a bridge of the BMC.
 7. A baseboardmanagement controller (BMC), comprising: a transceiver configured toreceive a first packet, wherein the first packet is an in-band packetwhich comprises first management data or service data, wherein the firstpacket is for transmission through a first channel, and wherein thefirst channel is a communications path for transmitting the service datato an external network using a physical network adapter of a server; anda virtual network adapter configured to: forward the first packetreceived by the transceiver to a physical network adapter of the BMCaccording to a forwarding rule, wherein the physical network adapter ofthe BMC is configured to send the first packet to the external network;and forward the received the first packet to a control module of the BMCusing the virtual network adapter, wherein the control module isconfigured to monitor a running status of the server according to thefirst management data comprised in the received first packet, whereinthe forwarding rule comprises: forward a packet to a control module ofthe BMC when a destination media access control (MAC) address of thereceived packet is a MAC address of the BMC; and forward the packet tothe physical network adapter of the BMC using a preconfigured virtualnetwork adapter and sending to the external network via the physicalnetwork adapter of the BMC when the destination MAC address of thereceived packet is not the MAC address of the BMC.
 8. The BMC accordingto claim 7, wherein the transceiver is further configured to receive asecond packet, wherein the second packet is an out-of-band packet whichcomprises second management data, wherein the second packet istransmitted through a second channel, and wherein the second channel isa communications path for transmitting the second management data to theexternal network using the physical network adapter of the BMC.
 9. TheBMC according to claim 8, wherein the BMC is further configured tomonitor a running status of the server according to the secondmanagement data comprised in the received second packet.
 10. The BMCaccording to claim 8, wherein the BMC further comprises a bridge, andwherein the virtual network adapter is further configured to: add aninspection point to a driver layer of the physical network adapter ofthe BMC; and recognize and forward the first packet or the second packetusing the inspection point added to the driver layer of the physicalnetwork adapter of the BMC.
 11. The BMC according to claim 8, whereinthe server and the BMC are connected using a Peripheral ComponentInterconnect express (PCIe) interface to establish a data exchange pathbetween the server and the BMC, and wherein the data exchange path isused to transmit the first packet and the second packet.
 12. The BMCaccording to claim 7, wherein the BMC is further configured to manageconfiguration information of the virtual network adapter, and whereinthe configuration information comprises a MAC address.
 13. A server,comprising: a memory configured to store a computer executableinstruction; a baseboard management controller (BMC); a processorconfigured to execute the computer executable instruction to send afirst packet to the BMC; and a system bus, wherein the memory and theBMC are connected to and complete mutual communication with theprocessor using the system bus, wherein the BMC is configured to:receive the first packet, wherein the first packet is an in-band packetwhich comprises first management data or service data, wherein the firstpacket is for transmission through a first channel, and wherein thefirst channel is a communications path for transmitting the service datato an external network using a physical network adapter of the server;forward, according to a forwarding rule, the received first packet to aphysical network adapter of the BMC using a preconfigured virtualnetwork adapter, wherein the first packet is sent to the externalnetwork via the physical network adapter of the BMC; and forward thereceived first packet to a control module of the BMC using thepreconfigured virtual network adapter, wherein the control module isconfigured to monitor a running status of the server according to thefirst management data comprised in the received first packet, whereinthe forwarding rule comprises: forward a packet to a control module ofthe BMC when a destination media access control (MAC) address of thereceived packet is a MAC address of the BMC; and forward the packet tothe physical network adapter of the BMC using a preconfigured virtualnetwork adapter and sending to the external network via the physicalnetwork adapter of the BMC when the destination MAC address of thereceived packet is not the MAC address of the BMC.
 14. The serveraccording to claim 13, wherein the processor is further configured toexecute the computer executable instruction to send a second packet tothe BMC, wherein, the BMC is further configured to receive the secondpacket, wherein the second packet is an out-of-band packet whichcomprises second management data, wherein the second packet istransmitted through a second channel, and wherein the second channel isa communications path for transmitting the second management data to theexternal network using the physical network adapter of the BMC.
 15. Theserver according to claim 14, wherein the BMC is further configured toforward the second packet to a control module of the BMC using thepreconfigured virtual network adapter, wherein the control module isconfigured to monitor a running status of the server according to thesecond management data comprised in the received second packet.
 16. Theserver according to claim 13, wherein forwarding, by the preconfiguredvirtual network adapter, the received first packet or second packetcomprises: adding an inspection point to a driver layer of the physicalnetwork adapter of the BMC; and recognizing and forwarding the firstpacket or the second packet using the inspection point added to thedriver layer of the physical network adapter of the BMC.
 17. The serveraccording to claim 13, wherein forwarding, by the preconfigured virtualnetwork adapter, the received first packet or second packet comprisestransmitting the first packet or the second packet transparently using abridge of the BMC.